An Intelligent Power Supply Utilization System Based on Microcontroller for Renewable Energy Applications

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Published Jan 16, 2015
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Volume 11, Issue 1, March 2015

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Manish Kumar Ghodki
School of Renewable Energy & Efficiency, National Institute of Technology, Kurukshetra (Haryana)
Akhilesh Swarup
School of Renewable Energy & Efficiency, National Institute of Technology, Kurukshetra (Haryana)
Yash Pal
School of Renewable Energy & Efficiency, National Institute of Technology, Kurukshetra (Haryana)

Abstract

The proposed hardware “an intelligent power supply utilization system based on microcontroller for renewable energy applications” is a system in which microcontroller is used to automatically control the power supply of conventional energy source with the help of renewable energy source and power supply utilized in this way is then used to feed to the load. In this system, supply from the mains is altered with the help of microcontroller according to the nonlinear supply from solar energy and this altered power supply of one source is then compensated by another source. This technique will help to maintain the optional power supply to the load from renewable energy source. The control strategy for this kind of power supply utilization is written in the assembly language. The system based on this logic can be used as one of the energy saving option and a tool for promoting and encouraging the renewable energy sources.

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How to Cite
Ghodki, M. K., Swarup, A., & Pal, Y. (2015). An Intelligent Power Supply Utilization System Based on Microcontroller for Renewable Energy Applications. Power Research - A Journal of CPRI, 93–110. Retrieved from https://node6473.myfcloud.com/~geosocin/CPRI/index.php/pr/article/view/749

References

  1. S Saravanan, S Thangavel, Instantaneous reference current scheme based power management system for a solar/wind/ fuel cell fed hybrid power supply. IJEPES (International Journal of Electrical Power and Energy Systems) 2014; Vol 55, pp. 155–170.
  2. N Ponkarthik, K Kalidasa Murugavel. Performance enhancement of solar photovoltaic system using novel Maximum Power Point Tracking. IJEPES (International Journal of Electrical Power and Energy Systems) 2014; Vol 60, pp. 1–5.
  3. K S Parlak, P V array reconfiguration method under partial shading conditions. IJEPES (International Journal of Electrical Power and Energy Systems) 2014; Vol 63, pp. 713–721.
  4. P Yadav, B Tripathia, K Pandey, Manoj Kumar. Effect of varying concentration and temperature on steady and dynamic parameters of low concentration photovoltaic energy system. IJEPES (International Journal of Electrical Power and Energy Systems) 2014; Vol 61, pp.101– 110.
  5. S G Malla, C N Bhende. Voltage control of stand-alone wind and solar energy system.IJEPES (International Journal of Electrical Power and Energy Systems) 2014; Vol 56, pp. 361–373.
  6. Muhammad Ali Mazidi, Janice Gillispie Mazidi, Mckinlay Rolin D. The 8051 microcontroller and embedded systems. 2nd ed. Pearson Education; 1999.
  7. Ministry of Power, http://www.powermin.nic.in/JSP_SERVLETS/internal.jsp. Last accessed on Jan 15, 2015.
  8. B Ram. Fundamentals of microprocessor and microcomputers. 6th ed. Dhanpat Rai Publications; 2005.
  9. J Ayala Kenneth. The 8051 microcontroller. 2nd ed. Penram International Publishing (India) Pvt. Ltd; 1996.
  10. S Gaonkar Ramesh. Microprocessor architecture, programming and applications with 8085. 4th ed. Penram International Publishing (India) Pvt. Ltd; 2000.
  11. V Deshmukh Ajay. Microcontrollers Theory and Applications. 15th ed. Tata McGraw Hill Education Private Limited (New Delhi); 2010.

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